Abstract
Nano-/microfabrication of biomaterials.
Highlights
In view of these specialties of the biomaterials, several investigators are invited to contribute original research findings that can stimulate continuing efforts to understand the dimensions of the polymers and bioceramics as well as their composites essentially with bioactive compositions along with 2D/3D nano-/microlevel surface structures
The data from confocal laser scanning microscope showed that the quantum dots (QDs)-Her bound to the membrane of SK-BR3 and almost saturated after 6 hours of incubation. This result suggested that growth signal of the breast cancer cell is completely inhibited by specific binding of the herceptin to the Her-2 receptor of SK-BR3 membrane, resulting in cell death
The drug loading increased with increase in the mole fraction of depsipeptide unit in the hydrophobic segments
Summary
In view of these specialties of the biomaterials, several investigators are invited to contribute original research findings that can stimulate continuing efforts to understand the dimensions of the polymers and bioceramics as well as their composites essentially with bioactive compositions along with 2D/3D nano-/microlevel surface structures. Inn-Kyu Kang,[1] Yoshihiro Ito,[2] and Oh Hyeong Kwon[3] The surface composition and functionality of biomaterials and scaffolds are the most important factors for their applications in biomedical fields and tissue regeneration. Bulk and surface properties of biomaterials influence vital cell activities such as cell adhesion, proliferation, extracellular matrix secretion, and differentiation.
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